instructor: agniv sengupta - umdasengupta/aosc201/aosc201... · 2019. 2. 22. · 3 what is a sling...
TRANSCRIPT
AOSC201: Weather and Climate LabWeek 3: Observations & Simple Forecasts
Section 103/105 Instructor: Agniv Sengupta
Course Infoq AOSC201 course webpage: https://www.aosc.umd.edu/~asengupta/AOSC201/
q Textbook: Weather and Climate Laboratory Manual (1st Edition) by Tim Canty and Travis Sluka.
q Having the textbook is a requirement. This is the last week I’ll be providing photocopies of the labs.
q You will need a scientific calculator for most of the labs.
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Week 3 Lab: Obs. & Simple Forecasts
q Lab#4 of Lab Manual (pages 21-24)
q 50 points in total
q Two parts of this lab:
• Observations (Qsn #1-7)• Persistence Forecasts (Qsn #8-13)
q GROUP Work: Qsn #1-5, INDIVIDUAL Work: Qsn #6-13
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What is a sling psychrometer?
Two thermometers: Dry-bulb and Wet-Bulb
When we whirl the psychrometer around, the wet-bulb thermometer has water on it that
evaporates, cooling the bulb. The corresponding reading is the wet bulb temperature.
If the surrounding air is dry, then more of the water evaporates, so the wet-bulb gets decently
cooler than the dry-bulb. If the surrounding air is moist, then less water evaporates, so the wet-
bulb will be closer in temperature to the dry-bulb.
Relative Humidity: the amount of water vapor present in air expressed as a percentage of the
amount needed for saturation at the same temperature.
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Question 1 (2 points) Directions:
§ Measure the dry bulb and wet bulb temperature.
§ PLEASE DO NOT pull the cloth off the psychrometer while measuring.
§ Once you have the two temperatures, the sling psychrometer has a reference
sheet to determine Relative Humidity (RH) (Refer my website for RH reference table).
Week 3 Lab: Observations
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Question 1 Directions (…continued):
§ How to read the RH conversion chart?
-- Step 1: Air temp. is the Dry Bulb Temperature. The “depression” of wet-
bulb is dry bulb minus wet bulb temperature.
-- Step 2: Now, locate where the depression column intersects with the air
temp row, and this is your relative humidity (RH) in percentage.
§ EXAMPLE: If dry bulb temp. = 75°F and wet bulb temp. = 70°F
Depression = (75 - 70)°F = 5°F, and, RH (from chart) = 78%
Week 3 Lab: Observations
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Question 2 (2 points) Directions:
§ Thermometers will be passed around.
§ Give me temperature of air in the classroom in ° Celsius.
§ Conversion from °F to °C: T(in °C) = (F-32) * (5/9)
Week 3 Lab: Observations
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Question 3 (4 points) Directions:
§ Determine the density of air using the online calculator:
http://www.denysschen.com/denysschen/catalogue/density.aspx
§ Click on “Metric” and enter the values you calculated. We are 22 meters above
sea level.
§ After you get density (ρ), use the ideal gas law (p =ρRT) to calculate pressure.
where, p = pressure, RDRY AIR = 286.9 J/kg/K, and, T = temperature (in Kelvin).
(Hint: 1 Pascal = 1 J/m3 , and 1 hectopascal = 100 Pascal)
Week 3 Lab: Observations
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Question 4 (3 points) Directions:
§ Observed Pressure will be provided.
§ How does the observed pressure compare to your calculated pressure (from
Qsn#3)?
§ Make an educated guess while answering why there might be differences
between the observed and calculated pressures.
Week 3 Lab: Observations
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Question 5 (6 points) Directions:
§ We go outside for this Question and measure and observe different variables
using instruments like sling psychrometer, anemometer.
§ Fill out the “Campus” measurements in that column (No need to measure air
pressure, and fill out wind direction and cloud type for the “campus” column).
§ When it comes to cloud cover, just look up in the sky and observe. A very
general 1-3 word description is fine (e.g. clear/overcast/scattered clouds, etc.
for “cloud cover”).
§ Then fill out the “College Park Airport” column when we come back inside.
Use this website: https://w1.weather.gov/data/obhistory/KCGS.html
Week 3 Lab: Observations
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Question 6 (6 points) Directions:
§ Use the first equation (equation a) to calculate the wind chill.
§ Temperature you enter for this equation should be the observed
temperature in °F for “Campus” (1st column entry from Qsn #5).
§ USE a scientific calculator.
Week 3 Lab: Observations
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Question 7 (4 points) Directions:
§ Provide a simple forecast for tomorrow (no point deduction for
inaccurate forecast)
§ Mention: temperature, wind speed, cloud cover, weather condition etc.
Week 3 Lab: Observations
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Question 8 (4 points) Directions:
§ For Questions 8-10, you will be using data from my website (titled
“Persistence Data”). DO NOT go to the website listed in the manual.
§ For Question 8, look at December 2014 for College Park.
§ You must choose two variables – Mean Temperature (°F), and Mean
Humidity (%), and their respective criteria to be deemed as “similar” to the
previous day (within +/-5°F of previous day’s temperature, and +/- 15% of
previous day’s mean humidity).
§ BOTH the criteria for the 2 variables have to met simultaneously to be
deemed “similar”. Thus, record the no. of days when the weather roughly
repeated itself.
Week 3 Lab: Persistence Forecasts
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Question 9 (4 points) Directions:
§ Now look at July 2014 for College Park and repeat the same process as in
Qsn #8.
§ USE the same set of variables and same threshold criteria as Qsn #8 for
deeming a particular day’s weather similar to the previous day.
Week 3 Lab: Persistence Forecasts
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Question 10 (8 points) Directions:
§ Now look at December 2014 and July 2014 for Hilo, HI and repeat the same
process as in Qsn #8.
§ USE the same set of variables and same threshold criteria as Qsn #8 for
deeming a particular day’s weather similar to the previous day.
§ Are persistence forecasts for Hilo, HI more or less accurate than College
Park?
Week 3 Lab: Persistence Forecasts
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Question 11 (3 points) Directions:
§ Provide an explanation for why the persistence forecasts for Hilo, HI may be
more or less accurate than College Park?
Week 3 Lab: Persistence Forecasts
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“Weather for a particular day will be the nearly similar to the long term average
for that day”.
Week 3 Lab: Climatological Forecasts
September 10: Washington, DC
(Data courtesy: Justin Hicks)
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Question 12 (2 points) Directions:
§ You are comparing your answer for Question #5 (College Park airport) to
the climatological means for today :
-- Climatological average high temperature for Feb 22: 48°F
-- Climatological average precipitation for Feb 22: 0.1 inches
Week 3 Lab: Climatological Forecasts
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Question 13 (2 points) Directions:
§ Please note for this question, “your forecast” refers to your answer for
Question #7 on the previous page of the lab manual.
Week 3 Lab: Simple Forecasts
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Questions ?
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